104 lines
4.2 KiB
Python
104 lines
4.2 KiB
Python
"""
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Training Progress Tracker
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Manages progress calculation for parallel product training (20-80% range)
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"""
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import asyncio
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import structlog
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from typing import Optional
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from datetime import datetime, timezone
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from app.services.training_events import publish_product_training_completed
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from app.utils.time_estimation import calculate_estimated_completion_time
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logger = structlog.get_logger()
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class ParallelProductProgressTracker:
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"""
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Tracks parallel product training progress and emits events.
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For N products training in parallel:
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- Each product completion contributes 60/N% to overall progress
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- Progress range: 20% (after data analysis) to 80% (before completion)
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- Thread-safe for concurrent product trainings
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- Calculates time estimates based on elapsed time and progress
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"""
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def __init__(self, job_id: str, tenant_id: str, total_products: int):
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self.job_id = job_id
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self.tenant_id = tenant_id
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self.total_products = total_products
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self.products_completed = 0
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self._lock = asyncio.Lock()
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self.start_time = datetime.now(timezone.utc)
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# Calculate progress increment per product
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# 60% of total progress (from 20% to 80%) divided by number of products
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self.progress_per_product = 60 / total_products if total_products > 0 else 0
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logger.info("ParallelProductProgressTracker initialized",
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job_id=job_id,
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total_products=total_products,
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progress_per_product=f"{self.progress_per_product:.2f}%")
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async def mark_product_completed(self, product_name: str) -> int:
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"""
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Mark a product as completed and publish event with time estimates.
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Returns the current overall progress percentage.
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"""
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async with self._lock:
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self.products_completed += 1
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current_progress = self.products_completed
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# Calculate time estimates based on elapsed time and progress
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elapsed_seconds = (datetime.now(timezone.utc) - self.start_time).total_seconds()
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products_remaining = self.total_products - current_progress
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# Calculate estimated time remaining
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# Avg time per product * remaining products
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estimated_time_remaining_seconds = None
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estimated_completion_time = None
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if current_progress > 0 and products_remaining > 0:
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avg_time_per_product = elapsed_seconds / current_progress
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estimated_time_remaining_seconds = int(avg_time_per_product * products_remaining)
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# Calculate estimated completion time
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estimated_duration_minutes = estimated_time_remaining_seconds / 60
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completion_datetime = calculate_estimated_completion_time(estimated_duration_minutes)
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estimated_completion_time = completion_datetime.isoformat()
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# Publish product completion event with time estimates
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await publish_product_training_completed(
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job_id=self.job_id,
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tenant_id=self.tenant_id,
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product_name=product_name,
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products_completed=current_progress,
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total_products=self.total_products,
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estimated_time_remaining_seconds=estimated_time_remaining_seconds,
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estimated_completion_time=estimated_completion_time
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)
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# Calculate overall progress (20% base + progress from completed products)
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# This calculation is done on the frontend/consumer side based on the event data
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overall_progress = 20 + int((current_progress / self.total_products) * 60)
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logger.info("Product training completed",
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job_id=self.job_id,
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product_name=product_name,
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products_completed=current_progress,
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total_products=self.total_products,
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overall_progress=overall_progress,
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estimated_time_remaining_seconds=estimated_time_remaining_seconds)
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return overall_progress
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def get_progress(self) -> dict:
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"""Get current progress summary"""
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return {
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"products_completed": self.products_completed,
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"total_products": self.total_products,
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"progress_percentage": 20 + int((self.products_completed / self.total_products) * 60)
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}
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